WU Songhua
Release date: 2019-06-24


Prof. Dr. WU Songhua

Dean, Department of Marine Technology, College of Information Science and Engineering, Ocean University of China, OUC

Director, Key Laboratory of Marine Information Detection and Digital Ocean Technology, Shandong Province

Member, Cal/Val team of ADM-Aeolus, European Space Agency, ESA

Topical Editor, Associate Editor for Applied Optics, a peer-reviewed scientific journal published by The American Optical Society

Member, Optoelectronic Technology Committee of China Aerospace Society

Mailing Address: 238 Songling RD, Qingdao, 266100, China

Phone/Fax: 86-532-66782573

E-mail: wush@ouc.edu.cn

 

Education:

ž   2004

PhD in physical oceanography, Ocean University of   China, China

ž   1999

B.Sc in Electronics and Information System, Ocean   University of China, China

 

Professional Employment:

ž   2017-

Dean, Department of Marine Technology, College of Information Science   and Engineering

ž   2017-

Topical   Editor, Associate Editor for Applied Optics, American Optical Society

ž   2011-

Professor at the Ocean University of China, Ocean Remote Sensing   Institute, Department of Marine Technology, College of Information Science and   Engineering

ž   2013-2014

DAAD visiting senior scientist in DLR/IPA , German Aerospace   Center, Institute of Atmospheric Physics

ž   2007-2011

Associate Professor at the Ocean University of China, Ocean   Remote Sensing Institute, College of Information Science and Engineering

ž   2004-2006

Lecturer   at the Ocean University of China, College of Information Science and   Engineering, Ocean Remote Sensing Institute

 

Research Interests:

ž   The Research on wind, temperature, water vapor, cloud and aerosol in atmospheric boundary layer and troposphere using Lidar technology;

ž   Ocean Optics and Material and energy flux measurement in MABL;

ž   The influence of turbulence conditions and wind turbine wake on wind energy;

ž   Dust and absorption aerosol transportation and interaction with ocean;

ž   Calibration and validation of spaceborne lidar mission, eg., ACDL, Guanlan, ADM-Aeolus and EarthCARE satellite.

Achievements

ž   Development and application of direct-detection and coherent Doppler wind lidar for multi-scale wind field detection (including turbulence, wind shear and wake vortex) in the field of wind power, aviation safety and meteorology;

ž   Development and application of High Spectral Resolution LIDAR, Multi-wavelength Raman and Polarization LIDAR for cloud and aerosol interaction research and for investigating atmosphere boundary dynamics.

ž   Establishment of High Spectral Resolution Lidar for atmospheric and oceanic observations using Fraunhofer spectrum;

Publications

Yin, B., Wu, S.*, Wang, M., Liu, W., Wu, B., Li, H., and Wang, Q., High-sensitivity Refractive Index and Temperature Sensor Based on Cascaded Dual-wavelength Fiber Laser and SNHNS Interferometer, Optics Express, accepted.

Zhang, H., Wu, S.*, Wang, Q., Liu, B., Yin, B., and Zhai, X., 2019: Airport low-level wind shear lidar observation at beijing capital international airport. Infrared Physics & Technology, DOI: 10.1016/j.infrared.2018.07.033.

Dai, G., Althausen, D., Hofer, J., Engelmann, R., Seifert, P., Bühl, J., Mamouri, R.E., Wu, S., and Ansmann, A., 2018: Calibration of Raman lidar water vapor profiles by means of AERONET photometer observations and GDAS meteorological data, Atmospheric Measurement Techniques, DOI: https://doi.org/10.5194/amt-11-2735-2018.

Zhai, X., Wu, S.*, Liu, B., Song, X., and Yin, J., 2018: Shipborne Wind Measurement and Motion-induced Error Correction of a Coherent Doppler Lidar over the Yellow Sea in 2014, Atmospheric Measurement Techniques, DOI: 10.5194/amt-11-1313-2018.

Dai, G., Wu, S.*, and Song, X., 2018: Depolarization Ratio Profiles Calibration and Observations of Aerosol and Cloud in the Tibetan Plateau Based on Polarization Raman Lidar, Remote Sensing, https://doi.org/10.3390/rs10030378.

Yin, B., Wang, M., Wu, S.*, Tang, Y., Feng, S., Wu, Y., and Zhang, H., 2017: Fiber ring laser based on MMF-PMFBG-MMF filter for three parameters sensing. Optics Express, DOI: 10.1364/OE.25.030946.

Yin, B., Wang, M., Wu, S.*, Tang, Y., Feng, S., and Zhang, H., 2017: High sensitivity axial strain and temperature sensor based on dual-frequency optoelectronic oscillator using PMFBG Fabry-Perot filter. Optics ExpressDOI: 10.1364/OE.25.014106.

Zhai, X., Wu, S.*, and Liu, B., 2017: Doppler lidar investigation of wind turbine wake characteristics and atmospheric turbulence under different surface roughness. Optics ExpressDOI: 10.1364/OE.25.00A515.

Song, X., Zhai, X., Liu, L., and Wu, S.*, 2017: Lidar and ceilometer observations and comparisons of atmospheric cloud structure at nagqu of tibetan plateau in 2014 Summer. Atmosphere, DOI: 10.3390/atmos8010009.

Wu, S.*, Liu, B., Liu, J., Zhai, X., Feng, C., Wang, G., and Gallacher, D., 2016: Wind turbine wake visualization and characteristics analysis by Doppler lidar. Optics ExpressDOI: 10.1364/OE.24.00A762.

Wu, S.*, Dai, G., Song, X., Liu, B., and Liu, L., 2016: Observations of water vapor mixing ratio profile and flux in the Tibetan Plateau based on the lidar technique. Atmospheric Measurement TechniquesDOI: 10.5194/amt-9-1399-2016.

Wu, S.*, Song, X., Liu, B., Dai, G., Liu, J., Zhang, K., and Liu, L., 2015: Mobile multi-wavelength polarization Raman lidar for water vapor, cloud and aerosol measurement. Optics Express, DOI: 10.1364/OE.23.033870.

Awards:

2015 Recipient, First Prize of Qingdao Science and Technology, Qingdao Municipal People's Government

2012 Recipient, New Century Excellent Talents, Ministry of Education, China

2005 Recipient, Excellent doctoral dissertation of Shandong province, Shandong Provincial Degree Office, Science and Technology Department, Education Department

Research GRANTS 主要在研项目列表(包括项目名称、主要负责人、起止时间、项目金额及项目类别)

Project

Project   Type

Duration

PI

Fund   (million Yuan)

Ocean environment protection-   Study on the mechanism and model of ocean optics remote sensing- Algorithm   and development of laser detection in the ocean

The National Key Research and Development Program of   China

2016-2020

WU Songhua

3.64

Detection of the   Marine-Atmospheric boundary layer dynamics profile by lidar

The Fundamental Research Funds for the Central Universities

2018-2020

WU Songhua

1

Lidar   Observations from ADM-Aeolus and EarthCARE-Validation, Study of Long-range   Transport of Aerosol and Preparation of a Future Chinese CO2 Lidar Mission

Dragon 4 (ESA   and MOST)

2016-2020

WU Songhua

/

ADM-AEOLUS   Calibration/Validation

ESA

2018-2021

WU Songhua

/


其它材料

 

部分已授权国家发明专利 Selected Patents Granted

Ÿ   吴松华、陈阳、刘智深,“测量多气象参数的多普勒激光雷达装置”,国家发明专利(专利号:201010154532.2

Wu, S., Chen, Y. and Liu, Z. Doppler lidar technology for multiple meteorological parameters measurements, (No. 201010154532.2).

Ÿ   吴松华、陈阳、刘智深,“实时定标高光谱分辨率激光雷达装置”,国家发明专利(专利号:201010154532.2

Wu, S., Chen, Y., Liu, Z., Real-time calibration method for High Spectral Resolution lidar, (No. 200910231371.X)

Ÿ   刘智深、吴松华,“微波测风激光雷达装置”,国家发明专利(专利号:200610069120.2

Liu, Z., Wu, S., Hybrid microwave lidar for wind measurement, (No. 200610069120.2)

Ÿ   吴松华、刘智深、张凯临,“全天时光子计数激光雷达装置和方法”,国家发明专利(专利号:200710114987.X

Wu, S., Liu, Z., and Zhang, K., New type High Spectral Resolution Lidar using Fraunhofer spectrum, (No. 200710114987.X)

1. 2018年各自研究部出海航次介绍(如有) 

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2.代表性的照片和视频资料(附英文标题或说明) 

3.最近发表的高水平代表性论文2篇(附全文,并注明封面展示图)

Wu, S.*, Liu, B., Liu, J., Zhai, X., Feng, C., Wang, G., and Gallacher, D., 2016: Wind turbine wake visualization and characteristics analysis by Doppler lidar. Optics ExpressDOI: 10.1364/OE.24.00A762.

Wu, S.*, Song, X., Liu, B., Dai, G., Liu, J., Zhang, K., and Liu, L., 2015: Mobile multi-wavelength polarization Raman lidar for water vapor, cloud and aerosol measurement. Optics Express, DOI: 10.1364/OE.23.033870.